Ice Crystals Clues from the clouds Rachel Schwartz April 17, 2009.

Slides:

Advertisements

Similar presentations

THE WATER CYCLE The water cycle — the continuous exchange of water between Earth's surface and atmosphere — is Earth's natural mechanism for recycling.

Advertisements

A Winter Season Physical Evaluation of the Effects of Cloud Seeding in the Colorado Mountains William R. Cotton, Ray McAnelly, and Gustavo Carrió Colorado.

Precipitation Chapter 7

MET 10 Lecture 6 Atmospheric Stability and Cloud Development Chapter 5 Dr. Craig Clements San Jose State University.

ATS 351 Lab 7 Precipitation March 7, Droplet Growth by Collision and Coalescence Growth by condensation alone takes too long Occurs in clouds with.

1 Snow Definition: Snow is defined as particles of ice formed in a cloud that are large enough to fall toward the ground. Snow is therefore solid precipitation.

Warm cloud microstructures

The Water Cycle Lesson 4.2.

Part 2. Water in the Atmosphere Chapter 7 Precipitation Processes.

Lecture 13: Precipitation W & H: Sections 6.4 and 6.5.

Q. Why are cloud droplets larger over the ocean?

Cold advection Radiational cooling of clouds Solar heating of Earth’s surface Warm air advection at surface Air moving over a warm surface.

Observation and Experimentation - Welcome Picnic.

Observational approaches to understanding cloud microphysics.

Chapter 5: Cloud Development and Precipitation Atmospheric Stability Atmospheric Stability Determining stability Determining stability Cloud development.

The Water Cycle evaporation The Water Cycle evaporation condensation.

____ + ____ + ____ = weather.

Chapter 4 (cont.) Precipitation. How does precipitation form? Why do some clouds generate precipitation and others do not? What factors determine the.

Part 2. Water in the Atmosphere Chapter 5. Atmospheric Moisture.

Cellular Automata Models of Crystals and Hexlife CS240 – Software Project Spring 2003 Gauri Nadkarni.

5. Formation and Growth of Ice Crystals

Chapter 7 – Precipitation Processes

The Bentley Snow Crystal Collection Jean M. Phillips, Librarian Space Science & Engineering Center University of Wisconsin-Madison November 2005.

Matter. Review States of Matter Solid Liquid Gas Plasma.

Different heterogeneous routes of the formation of atmospheric ice Anatoli Bogdan Institute of Physical Chemistry, University of Innsbruck Austria and.

ENSC 454/654: Snow & Ice Week 2: Snowfall formation & distribution 1.

January + February Nature - animals Nature - plantsWinter weather Eco friendly actions. Recycle your Christmas tree. Recycle your Christmas cards. Food.

Chapter 5: Cloud development and precipitation Atmospheric Stability Atmospheric Stability Determining stability Determining stability Cloud development.

Why does it rain on us???.  3 cloud properties, 9 ISCCP cloud types  Why do clouds constitute a wildcard for climate change? Competition between greenhouse.

Wednesday, 9/16/091 ATMO Class #8 Wednesday, September 16, 2009 Chapter 4, Water in the atmosphere.

Chapter 8: Precipitation ATS 572. “Precipitation” Can be: 1.Rain 2.Snow 3.Hail 4.Etc. However, it MUST reach the ground. –Otherwise, it is called “virga”—hydrometeors.

EQ: How does the water cycle move energy and matter?

Water in the Atmosphere

Ch 7: Precipitation Processes: Why does it rain on us???

CLOUDS. What are clouds?

Why does it rain on us???.

LEARNING ABOUT THE WEATHER RAIN, TEMPERATURE, AND WIND.

Ice in the Atmosphere W+H 6.5; S+P Ch. 17 Start with some terminology –Warm clouds = T > 0 ºC (= K) –Cold clouds = T < 0 ºC Cold clouds may or may.

Chapter 7 Precipitation. An ordinary cloud droplet is extremely small (~20 micrometers) 100 times smaller than an average raindrop if in equilibrium…

Cloud Microphysics Liz Page NWS/COMET Hydromet February 2000.

Monday, 9/13/101 ATMO Class #7 Monday, September 13, 2010 Chapter 4, Water continued.

NATS 101 Section 13: Lecture 13 Precipitation. Precipitation: Any form of water particles—liquid or solid—that falls from the atmosphere and reaches the.

LET IT... SNOW!!.

Birth of a Snowflake How they are formed This assignment has been developed to instruct you on the use of sound within a PowerPoint presentation. Therefore,

Chapter 7 Precipitation Processes Chapter 7 Precipitation Processes.

MET215: Advanced Physical Meteorology Ice Clouds: Nucleation and Growth Sources: Steve Platnick Menglin S. Jin.

Clouds. How Clouds Form Clouds form when water vapor in the air becomes liquid water or ice crystals. As air cools, the amount of water vapor it can hold.

Chapter 18.  Water vapor  Precipitation  Condensation  Latent heat  Heat is added but there is no temperature change because the heat is instead.

Initiation of precipitation via the ice phase Part I: Microphysical processes Karoline Diehl University of Mainz, Germany Institute of Atmospheric Physics.

Chapter 23: Change of Phase Review and Study Guide.

The ice phase in clouds We began to look at how ice crystals, once formed, grow in the atmosphere Growth from vapor phase Analogies to drop growth, but.

B3. Microphysical Processes

Clouds (Condensed PPT)

Types of Precipitation

Primary and Secondary Ice Formation

Dendritic ice crystals with faceted tip growing from the vapor phase

Review for Exam 2 Fall 2011 Topics on exam: Class Lectures:

Class #25: Friday, March 6 Clouds, fronts, precipitation processes, upper-level waves, and the extratropical cyclone Class #25: Friday, March 6, 2009.

Bellwork 4/3 Welcome Back 

5. Formation and Growth of Ice Crystals

Microphysics of Cold Clouds

ATOC 4720 class19 Thunderstorms 1. Growth of clouds droplets in

Article Review Jennie Bukowski ATS Mar-2017

Change in state – conversion from one physical form to another

KINETIC TERMS 10/16/07.

Stories in the Snow involves….

e.g. DALR = 100C/1000m MALR= 60C/1000m ELR = 40C/1000

HYDROMETEORS (Chap. 7).

Presentation transcript:

Ice Crystals Clues from the clouds Rachel Schwartz April 17, 2009

Why Study Ice Crystals? What controls the shape? –Cloud temperature –Water vapor content History Classification Measurements

Ukichiro Nakaya - historical classification 1611 Kepler 1931 Bentley - photographs 1954 Nakaya –first systematic classification scheme

Classification Sectored Plates Stellar Dendrites Fernlike Stellar Dendrites Bullet Rosettes Needles

Temperature and Supersaturation Nucleation and vapor deposition Supercooled water At -20 C supersaturation with respect to ice is 21%! ---> rapid growth

Crystal Shape - Temperature and Supersaturation From: Basic shape –Hexagonal prism To: “No two are alike” –Particle and heat transport –Surface diffusion and chemistry

Rimming and Aggregation Rimming –Supercooled water droplet collides with ice crystal Aggregation –Ice crystal collides with ice crystal

Observing Ice Crystals Sampling surface –Cooled black velvet Magnification –Microscope –Magnifying glass Patience –Most are irregular!

Ice crystals in the lab To understand growth processes Vapor diffusion chamber Electric needles Time lapse - movie

Clues from the clouds Careful examination can tell us about –In cloud temperatures Riming --> faster with higher liquid water content Aggregation --> ice crystal concentrations References: Peterson, T.C., Yeh. J, Cotton, W.R. Manual for Snowflake Observation, Identification and Replication, Colorado State University Kenneth G. Libbrecht, Caltech SnowCrystals.com Kenneth G. Libbrecht, The physics of snow crystals, Reports on Progress in Physics 2005